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singletons-th: Remove unneeded kind annotation when singling case expressions #549

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Original file line number Diff line number Diff line change
Expand Up @@ -1444,7 +1444,7 @@ GradingClient/Database.hs:(0,0)-(0,0): Splicing declarations
sName'
in
(GHC.Base.id
@(Sing (Case_0123456789876543210 name name' u attrs (Let0123456789876543210Scrutinee_0123456789876543210Sym4 name name' u attrs) :: U)))
@(Sing (Case_0123456789876543210 name name' u attrs (Let0123456789876543210Scrutinee_0123456789876543210Sym4 name name' u attrs))))
(case sScrutinee_0123456789876543210 of
STrue -> sU
SFalse
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -187,7 +187,7 @@ InsertionSort/InsertionSortImp.hs:(0,0)-(0,0): Splicing declarations
= (applySing ((applySing ((singFun2 @LeqSym0) sLeq)) sN)) sH
in
(id
@(Sing (Case_0123456789876543210 n h t (Let0123456789876543210Scrutinee_0123456789876543210Sym3 n h t) :: [Nat])))
@(Sing (Case_0123456789876543210 n h t (Let0123456789876543210Scrutinee_0123456789876543210Sym3 n h t))))
(case sScrutinee_0123456789876543210 of
STrue
-> (applySing ((applySing ((singFun2 @(:@#@$)) SCons)) sN))
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -245,7 +245,7 @@ Singletons/CaseExpressions.hs:(0,0)-(0,0): Splicing declarations
forall a (t :: a) (t :: Maybe a). Sing t
-> Sing t -> Sing (Apply (Apply Foo1Sym0 t) t :: a)
sFoo5 (sX :: Sing x)
= (id @(Sing (Case_0123456789876543210 x x :: a)))
= (id @(Sing (Case_0123456789876543210 x x)))
(case sX of
(sY :: Sing y)
-> (applySing
Expand All @@ -258,7 +258,7 @@ Singletons/CaseExpressions.hs:(0,0)-(0,0): Splicing declarations
(case sArg_0123456789876543210 of _ -> sX))))
sY)
sFoo4 (sX :: Sing x)
= (id @(Sing (Case_0123456789876543210 x x :: a)))
= (id @(Sing (Case_0123456789876543210 x x)))
(case sX of
(sY :: Sing y)
-> let
Expand All @@ -273,7 +273,7 @@ Singletons/CaseExpressions.hs:(0,0)-(0,0): Splicing declarations
= (applySing ((applySing ((singFun2 @Tuple2Sym0) STuple2)) sA)) sB
in
(id
@(Sing (Case_0123456789876543210 a b (Let0123456789876543210Scrutinee_0123456789876543210Sym2 a b) :: a)))
@(Sing (Case_0123456789876543210 a b (Let0123456789876543210Scrutinee_0123456789876543210Sym2 a b))))
(case sScrutinee_0123456789876543210 of
STuple2 (sP :: Sing p) _ -> sP)
sFoo2 (sD :: Sing d) _
Expand All @@ -284,10 +284,10 @@ Singletons/CaseExpressions.hs:(0,0)-(0,0): Splicing declarations
= (applySing ((singFun1 @JustSym0) SJust)) sD
in
(id
@(Sing (Case_0123456789876543210 d (Let0123456789876543210Scrutinee_0123456789876543210Sym1 d) :: a)))
@(Sing (Case_0123456789876543210 d (Let0123456789876543210Scrutinee_0123456789876543210Sym1 d))))
(case sScrutinee_0123456789876543210 of SJust (sY :: Sing y) -> sY)
sFoo1 (sD :: Sing d) (sX :: Sing x)
= (id @(Sing (Case_0123456789876543210 d x x :: a)))
= (id @(Sing (Case_0123456789876543210 d x x)))
(case sX of
SJust (sY :: Sing y) -> sY
SNothing -> sD)
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -471,7 +471,7 @@ Singletons/PatternMatching.hs:(0,0)-(0,0): Splicing declarations
sSz :: Sing @_ SzSym0
sX_0123456789876543210 :: Sing @_ X_0123456789876543210Sym0
sSilly (sX :: Sing x)
= (id @(Sing (Case_0123456789876543210 x x :: ())))
= (id @(Sing (Case_0123456789876543210 x x)))
(case sX of _ -> STuple0)
sFoo2 (STuple2 (sX :: Sing x) (sY :: Sing y))
= let
Expand All @@ -480,7 +480,7 @@ Singletons/PatternMatching.hs:(0,0)-(0,0): Splicing declarations
= (applySing ((applySing ((singFun2 @Tuple2Sym0) STuple2)) sX)) sY
in
(id
@(Sing (Case_0123456789876543210 x y (Let0123456789876543210TSym2 x y) :: a)))
@(Sing (Case_0123456789876543210 x y (Let0123456789876543210TSym2 x y))))
(case sT of
STuple2 (sA :: Sing a) (sB :: Sing b)
-> (applySing
Expand Down Expand Up @@ -512,8 +512,7 @@ Singletons/PatternMatching.hs:(0,0)-(0,0): Splicing declarations
SNil))
-> sY_0123456789876543210)
sLsz
= (id
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Nat)))
= (id @(Sing (Case_0123456789876543210 X_0123456789876543210Sym0)))
(case sX_0123456789876543210 of
SCons _
(SCons (sY_0123456789876543210 :: Sing y_0123456789876543210)
Expand All @@ -537,8 +536,7 @@ Singletons/PatternMatching.hs:(0,0)-(0,0): Splicing declarations
-> sY_0123456789876543210)
sX_0123456789876543210 = sTuple
sFls
= (id
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Bool)))
= (id @(Sing (Case_0123456789876543210 X_0123456789876543210Sym0)))
(case sX_0123456789876543210 of
SPair (SPair _ _)
(sY_0123456789876543210 :: Sing y_0123456789876543210)
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -293,7 +293,7 @@ Singletons/T150.hs:(0,0)-(0,0): Splicing declarations
(%!) (SVCons _ (sXs :: Sing xs)) (SFS (sN :: Sing n))
= (applySing ((applySing ((singFun2 @(!@#@$)) (%!))) sXs)) sN
(%!) SVNil (sN :: Sing n)
= (id @(Sing (Case_0123456789876543210 n n :: a))) (case sN of {})
= (id @(Sing (Case_0123456789876543210 n n))) (case sN of {})
sTailVec (SVCons _ (sXs :: Sing xs)) = sXs
sHeadVec (SVCons (sX :: Sing x) _) = sX
instance SingI (TransitivitySym0 :: (~>) (Equal a b) ((~>) (Equal b c) (Equal a c))) where
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -49,7 +49,7 @@ Singletons/T160.hs:(0,0)-(0,0): Splicing declarations
(sFromInteger (sing :: Sing 0))
in
(id
@(Sing (Case_0123456789876543210 x (Let0123456789876543210Scrutinee_0123456789876543210Sym1 x) :: a)))
@(Sing (Case_0123456789876543210 x (Let0123456789876543210Scrutinee_0123456789876543210Sym1 x))))
(case sScrutinee_0123456789876543210 of
STrue -> sFromInteger (sing :: Sing 1)
SFalse
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -423,7 +423,7 @@ Singletons/T183.hs:(0,0)-(0,0): Splicing declarations
sScrutinee_0123456789876543210 = sX :: Sing (x :: Maybe a)
in
(id
@(Sing (Case_0123456789876543210 x (Let0123456789876543210Scrutinee_0123456789876543210Sym1 x) :: Maybe (Maybe a))))
@(Sing (Case_0123456789876543210 x (Let0123456789876543210Scrutinee_0123456789876543210Sym1 x))))
(case sScrutinee_0123456789876543210 of
SJust (sY :: Sing y)
-> case ((,) (sY :: Sing y)) (SJust (sY :: Sing y)) of
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -296,14 +296,14 @@ Singletons/TopLevelPatterns.hs:(0,0)-(0,0): Splicing declarations
sOtherwise :: Sing (OtherwiseSym0 :: Bool)
sM
= (GHC.Base.id
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Bool)))
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0)))
(case sX_0123456789876543210 of
SCons _
(SCons (sY_0123456789876543210 :: Sing y_0123456789876543210) SNil)
-> sY_0123456789876543210)
sL
= (GHC.Base.id
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Bool)))
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0)))
(case sX_0123456789876543210 of
SCons (sY_0123456789876543210 :: Sing y_0123456789876543210)
(SCons _ SNil)
Expand All @@ -318,13 +318,13 @@ Singletons/TopLevelPatterns.hs:(0,0)-(0,0): Splicing declarations
SNil)
sK
= (GHC.Base.id
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Bool)))
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0)))
(case sX_0123456789876543210 of
SBar _ (sY_0123456789876543210 :: Sing y_0123456789876543210)
-> sY_0123456789876543210)
sJ
= (GHC.Base.id
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0 :: Bool)))
@(Sing (Case_0123456789876543210 X_0123456789876543210Sym0)))
(case sX_0123456789876543210 of
SBar (sY_0123456789876543210 :: Sing y_0123456789876543210) _
-> sY_0123456789876543210)
Expand Down
102 changes: 41 additions & 61 deletions singletons-th/src/Data/Singletons/TH/Single.hs
Original file line number Diff line number Diff line change
Expand Up @@ -390,10 +390,7 @@ singClassD (ClassDecl { cd_cxt = cls_cxt
let default_sigs = catMaybes $
zipWith4 (mk_default_sig opts) meth_names sing_sigs
tyvar_names res_kis
res_ki_map = Map.fromList (zip meth_names
(map (fromMaybe always_sig) res_kis))
sing_meths <- mapM (uncurry (singLetDecRHS (Map.fromList cxts)
res_ki_map))
sing_meths <- mapM (uncurry (singLetDecRHS (Map.fromList cxts)))
(OMap.assocs default_defns)
fixities' <- mapMaybeM (uncurry singInfixDecl) $ OMap.assocs fixities
cls_cxt' <- mapM singPred cls_cxt
Expand All @@ -404,7 +401,6 @@ singClassD (ClassDecl { cd_cxt = cls_cxt
(map DLetDec (sing_sigs ++ sing_meths ++ fixities') ++ default_sigs)
where
no_meth_defns = error "Internal error: can't find declared method type"
always_sig = error "Internal error: no signature for default method"
meth_names = map fst $ OMap.assocs meth_sigs

mk_default_sig opts meth_name (DSigD s_name sty) bound_kvs (Just res_ki) =
Expand Down Expand Up @@ -478,35 +474,30 @@ singInstD (InstDecl { id_cxt = cxt, id_name = inst_name, id_arg_tys = inst_tys
vis_cls_tvbs = drop (length cls_tvbs - length inst_kis) cls_tvbs

sing_meth_ty :: OSet Name -> DType
-> SgM (DType, DCxt, DKind)
-> SgM (DType, DCxt)
sing_meth_ty bound_kvs inner_ty = do
-- Make sure to expand through type synonyms here! Not doing so
-- resulted in #167.
raw_ty <- expand inner_ty
(s_ty, _num_args, _tyvar_names, ctxt, _arg_kis, res_ki)
(s_ty, _num_args, _tyvar_names, ctxt, _arg_kis, _res_ki)
<- singType bound_kvs (DConT $ defunctionalizedName0 opts name) raw_ty
pure (s_ty, ctxt, res_ki)
pure (s_ty, ctxt)

(s_ty, ctxt, m_res_ki) <- case OMap.lookup name inst_sigs of
(s_ty, ctxt) <- case OMap.lookup name inst_sigs of
Just inst_sig -> do
-- We have an InstanceSig, so just single that type. Take care to
-- avoid binding the variables bound by the instance head as well.
let inst_bound = foldMap fvDType (cxt ++ inst_kis)
(s_ty, ctxt, res_ki) <- sing_meth_ty inst_bound inst_sig
pure (s_ty, ctxt, Just res_ki)
(s_ty, ctxt) <- sing_meth_ty inst_bound inst_sig
pure (s_ty, ctxt)
Nothing -> case mb_s_info of
-- We don't have an InstanceSig, so we must compute the type to use
-- in the singled instance ourselves through reification.
Just (DVarI _ (DForallT (DForallInvis cls_tvbs) (DConstrainedT _cls_pred s_ty)) _) -> do
(_sing_tvbs, ctxt, _args, res_ty) <- unravelVanillaDType s_ty
(_sing_tvbs, ctxt, _args, _res_ty) <- unravelVanillaDType s_ty
let subst = mk_subst cls_tvbs
m_res_ki = case res_ty of
_sing `DAppT` (_prom_func `DSigT` res_ki) -> Just (substKind subst res_ki)
_ -> Nothing

pure ( substType subst s_ty
, map (substType subst) ctxt
, m_res_ki )
, map (substType subst) ctxt )
_ -> do
mb_info <- dsReify name
case mb_info of
Expand All @@ -516,15 +507,13 @@ singInstD (InstDecl { id_cxt = cxt, id_name = inst_name, id_arg_tys = inst_tys
cls_kvb_names = foldMap (foldMap fvDType . extractTvbKind) cls_tvbs
cls_tvb_names = OSet.fromList $ map extractTvbName cls_tvbs
cls_bound = cls_kvb_names `OSet.union` cls_tvb_names
(s_ty, ctxt, res_ki) <- sing_meth_ty cls_bound inner_ty
(s_ty, ctxt) <- sing_meth_ty cls_bound inner_ty
pure ( substType subst s_ty
, ctxt
, Just (substKind subst res_ki) )
, ctxt )
_ -> fail $ "Cannot find type of method " ++ show name

let kind_map = maybe Map.empty (Map.singleton name) m_res_ki
meth' <- singLetDecRHS (Map.singleton name ctxt)
kind_map name rhs
name rhs
return $ map DLetDec [DSigD (singledValueName opts name) s_ty, meth']

singLetDecEnv :: ALetDecEnv
Expand All @@ -543,14 +532,11 @@ singLetDecEnv (LetDecEnv { lde_defns = defns
, lde_bound_kvs = bound_kvs })
thing_inside = do
let prom_list = OMap.assocs proms
(typeSigs, letBinds, _tyvarNames, cxts, res_kis, singIDefunss)
(typeSigs, letBinds, _tyvarNames, cxts, _res_kis, singIDefunss)
<- unzip6 <$> mapM (uncurry (singTySig defns types bound_kvs)) prom_list
infix_decls' <- mapMaybeM (uncurry singInfixDecl) $ OMap.assocs infix_decls
let res_ki_map = Map.fromList [ (name, res_ki) | ((name, _), Just res_ki)
<- zip prom_list res_kis ]
bindLets letBinds $ do
let_decs <- mapM (uncurry (singLetDecRHS (Map.fromList cxts)
res_ki_map))
let_decs <- mapM (uncurry (singLetDecRHS (Map.fromList cxts)))
(OMap.assocs defns)
thing <- thing_inside
return (infix_decls' ++ typeSigs ++ let_decs, concat singIDefunss, thing)
Expand Down Expand Up @@ -722,26 +708,22 @@ above.

singLetDecRHS :: Map Name DCxt -- the context of the type signature
-- (might not be known)
-> Map Name DKind -- result kind (might not be known)
-> Name -> ALetDecRHS -> SgM DLetDec
singLetDecRHS cxts res_kis name ld_rhs = do
singLetDecRHS cxts name ld_rhs = do
opts <- getOptions
bindContext (Map.findWithDefault [] name cxts) $
case ld_rhs of
AValue exp ->
DValD (DVarP (singledValueName opts name)) <$>
singExp exp (Map.lookup name res_kis)
singExp exp
AFunction _num_arrows clauses ->
let res_ki = Map.lookup name res_kis
in
DFunD (singledValueName opts name) <$>
mapM (singClause res_ki) clauses
mapM singClause clauses

singClause :: Maybe DKind -- result kind, if known
-> ADClause -> SgM DClause
singClause res_ki (ADClause var_proms pats exp) = do
singClause :: ADClause -> SgM DClause
singClause (ADClause var_proms pats exp) = do
(sPats, sigPaExpsSigs) <- evalForPair $ mapM (singPat (Map.fromList var_proms)) pats
sBody <- singExp exp res_ki
sBody <- singExp exp
return $ DClause sPats $ mkSigPaCaseE sigPaExpsSigs sBody

singPat :: Map Name Name -- from term-level names to type-level names
Expand Down Expand Up @@ -897,28 +879,27 @@ mkSigPaCaseE exps_with_sigs exp
--
-- And now everything is hunky-dory.

singExp :: ADExp -> Maybe DKind -- the kind of the expression, if known
-> SgM DExp
singExp :: ADExp -> SgM DExp
-- See Note [Why error is so special]
singExp (ADVarE err `ADAppE` arg) _res_ki
singExp (ADVarE err `ADAppE` arg)
| err == errorName = do opts <- getOptions
DAppE (DVarE (singledValueName opts err)) <$>
singExp arg (Just (DConT symbolName))
singExp (ADVarE name) _res_ki = lookupVarE name
singExp (ADConE name) _res_ki = lookupConE name
singExp (ADLitE lit) _res_ki = singLit lit
singExp (ADAppE e1 e2) _res_ki = do
e1' <- singExp e1 Nothing
e2' <- singExp e2 Nothing
singExp arg
singExp (ADVarE name) = lookupVarE name
singExp (ADConE name) = lookupConE name
singExp (ADLitE lit) = singLit lit
singExp (ADAppE e1 e2) = do
e1' <- singExp e1
e2' <- singExp e2
-- `applySing undefined x` kills type inference, because GHC can't figure
-- out the type of `undefined`. So we don't emit `applySing` there.
if isException e1'
then return $ e1' `DAppE` e2'
else return $ (DVarE applySingName) `DAppE` e1' `DAppE` e2'
singExp (ADLamE ty_names prom_lam names exp) _res_ki = do
singExp (ADLamE ty_names prom_lam names exp) = do
opts <- getOptions
let sNames = map (singledValueName opts) names
exp' <- singExp exp Nothing
exp' <- singExp exp
-- we need to bind the type variables... but DLamE doesn't allow SigT patterns.
-- So: build a case
let caseExp = DCaseE (mkTupleDExp (map DVarE sNames))
Expand All @@ -927,21 +908,21 @@ singExp (ADLamE ty_names prom_lam names exp) _res_ki = do
(singFamily `DAppT`) .
DVarT) ty_names)) exp']
return $ wrapSingFun (length names) prom_lam $ DLamE sNames caseExp
singExp (ADCaseE exp matches ret_ty) res_ki =
singExp (ADCaseE exp matches ret_ty) =
-- See Note [Annotate case return type] and
-- Note [The id hack; or, how singletons-th learned to stop worrying and
-- avoid kind generalization]
DAppE (DAppTypeE (DVarE 'id)
(singFamily `DAppT` (ret_ty `maybeSigT` res_ki)))
<$> (DCaseE <$> singExp exp Nothing <*> mapM (singMatch res_ki) matches)
singExp (ADLetE env exp) res_ki = do
(singFamily `DAppT` ret_ty))
<$> (DCaseE <$> singExp exp <*> mapM singMatch matches)
singExp (ADLetE env exp) = do
-- We intentionally discard the SingI instances for exp's defunctionalization
-- symbols, as we also do not generate the declarations for the
-- defunctionalization symbols in the first place during promotion.
(let_decs, _, exp') <- singLetDecEnv env $ singExp exp res_ki
(let_decs, _, exp') <- singLetDecEnv env $ singExp exp
pure $ DLetE let_decs exp'
singExp (ADSigE prom_exp exp ty) _ = do
exp' <- singExp exp (Just ty)
singExp (ADSigE prom_exp exp ty) = do
exp' <- singExp exp
pure $ DSigE exp' $ DConT singFamilyName `DAppT` DSigT prom_exp ty

-- See Note [DerivedDecl] in Data.Singletons.TH.Syntax
Expand Down Expand Up @@ -1011,11 +992,10 @@ isException (DLetE _ e) = isException e
isException (DSigE e _) = isException e
isException (DStaticE e) = isException e

singMatch :: Maybe DKind -- ^ the result kind, if known
-> ADMatch -> SgM DMatch
singMatch res_ki (ADMatch var_proms pat exp) = do
singMatch :: ADMatch -> SgM DMatch
singMatch (ADMatch var_proms pat exp) = do
(sPat, sigPaExpsSigs) <- evalForPair $ singPat (Map.fromList var_proms) pat
sExp <- singExp exp res_ki
sExp <- singExp exp
return $ DMatch sPat $ mkSigPaCaseE sigPaExpsSigs sExp

singLit :: Lit -> SgM DExp
Expand Down
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